Chip and multi-chip semiconductor device using thereof and method for manufacturing same

1. A chip for composing a multi-chip semiconductor device including a plurality of stacked semiconductor chips, comprising: a substrate; and a plurality of electroconductive through plugs composed of a conductive material extending through said substrate, wherein said plurality of electroconductive through plugs includes a first electroconductive through plug and a second electroconductive through plug being provided separately from said first electroconductive through plug, wherein said first electroconductive through plug and said second electroconductive through plug are configured to be visually distinctive in a plane view, and wherein said second electroconductive through plug comprises an alignment marking.

2. The chip according to claim 1 , wherein said first electroconductive through plug couples a first conductive member provided on a surface of said substrate to a second conductive member provided the other surface of said substrate.

3. The chip according to claim 1 , wherein said first electroconductive through plug is provided within a first hole provided in said substrate, and wherein said second electroconductive through plug is provided within a second hole provided in said substrate, said first and said second holes being formed by etching a predetermined region of said substrate off.

4. A multi-chip semiconductor device, comprising a stacked form of a chip according to claim 1 and another chip, wherein said first electroconductive through plug is coupled to a conductive member of said other chip, said other chip being adjacent said chip.

5. A chip for a multi-chip semiconductor device, comprising: two or more electroconductive through plugs in one chip for the multi-chip semiconductor device, wherein one or more of said electroconductive through plugs comprise an alignment marking, and wherein the chip comprises a configuration for visibly identifying said alignment marking on a front surface and a back surface of said chip for said multi-chip semiconductor device.

6. The chip according to claim 5 , wherein said alignment marking comprises a visibly identified two-dimensional geometry.

7. The chip according to claim 5 , wherein said alignment marking is configured to provide visible identification by a relative position for disposing said alignment marking against a position for disposing said electroconductive through plug.

8. The chip according to claim 5 , wherein said alignment marking is provided on the front surface and the back surface of said chip as including a same geometry.

9. The chip according to claim 5 , wherein said alignment marking comprises one of an asymmetric geometry and an asymmetric arrangement thereof.

10. The chip according to claim 5 , wherein said electroconductive through plug for the alignment marking comprises a minimum width of a cross-section thereof of equal to or less than a minimum width of other electroconductive through plugs.

11. The chip according to claim 5 , wherein one of a front surface and a back surface of said electroconductive through plug employed for said alignment marking is covered with an insulating material.

12. The chip according to claim 5 , wherein said alignment marking comprises a mounting alignment marking.

13. The chip according to claim 6 , wherein said alignment marking comprises a photolithography process positioning marking.

14. The chip according to claim 13 , wherein said photolithography process positioning marking comprises cross-sections, a minimum width of which is equal to or less than a minimum width of other electroconductive through plug, and the minimum width thereof is equal to or less than 1 μm.

15. The chip according to claim 5 , wherein an electric potential of at least a portion of said electroconductive through plug employed for said alignment marking is fixed.

16. A multi-chip semiconductor device, comprising a stacked form of a chip according to claim 5 and another chip, wherein at least one of said electroconductive through plugs is coupled to a conductive member of said other chip, said other chip being adjacent said chip.

17. A chip bonding apparatus for a multi-chip semiconductor device, comprising: chip bonding means for stacking and bonding chips; and chip position calculating means for calculating a position of a chip to be aligned, wherein a chip for the multi-chip semiconductor device comprises two or more electroconductive through plugs, wherein one or more of said electroconductive through plugs comprise an alignment marking, and wherein when said chip is stacked by said chip bonding means, a position of the chip of said multi-chip semiconductor device is calculated by said chip position calculating means by utilizing said alignment marking.

18. A chip for a multi-chip semiconductor device, comprising: a plurality of electroconductive through plugs in one chip for the multi-chip semiconductor device, wherein one or more of said electroconductive through plugs comprise an alignment marking, wherein the chip comprises a configuration for visibly identifying said alignment marking on one of a front surface and a back surface of said chip for said multi-chip semiconductor device, and wherein said alignment marking comprises one of an asymmetric geometry and an asymmetric arrangement.

19. A chip for a multi-chip semiconductor device, comprising: a plurality of electroconductive through plugs in one chip for the multi-chip semiconductor device, wherein one or more of said electroconductive through plugs comprise an alignment marking, wherein the chip comprises a configuration for visibly identifying said alignment marking on one of a front surface and a back surface of said chip for said multi-chip semiconductor device, and wherein said electroconductive through plug for the alignment marking comprises a minimum width of a cross-section thereof of equal to or less than a minimum width of other said electroconductive through plugs.

20. A chip for a multi-chip semiconductor device, comprising: a plurality of electroconductive through plugs in one chip for the multi-chip semiconductor device, wherein one or more of said electroconductive through plugs comprise an alignment marking, wherein the chip comprises a configuration for visibly identifying said alignment marking on one of a front surface and a back surface of said chip for said multi-chip semiconductor device, and wherein an electric potential of at least a portion of said electroconductive through plug employed for said alignment marking is fixed.